"$activateStimEL" 修訂間的差異

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(未顯示由 2 位使用者於中間所作的 2 次修訂)
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<math> \beta_{N}~~ R_{th,N} ~~ P3_N~~ P4_N </math>
 
<math> \beta_{N}~~ R_{th,N} ~~ P3_N~~ P4_N </math>
   
Method: 1 -> Given <math> \beta and R_{th} </math> of each layer. If this is layer is not QW, set <math> \beta=0.0~~,and~~R_{th}=0.0 </math>
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Method: 1 -> Given <math> \beta</math> and <math>R_{th} </math> of each layer. If this is layer is not QW, set <math> \beta=0.0~~,and~~R_{th}=0.0 </math>
 
Method: 2 -> defined for future expansion
 
Method: 2 -> defined for future expansion
P3, P4 : Not used, may be used when Method 2 is activate in the future
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<math>P3</math>, <math>P4</math> : Not used. It might be used when Method 2 is activate in the future
   
   
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1 1 2
 
1 1 2
 
0.000 5.0e27 0.00 0.00
 
0.000 5.0e27 0.00 0.00
1.000d-4 5.0e27 0.00 0.00
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1.000e-4 5.0e27 0.00 0.00
 
0.000 5.0e27 0.00 0.00
 
0.000 5.0e27 0.00 0.00
 
0.000 5.0e27 0.00 0.00
 
0.000 5.0e27 0.00 0.00
   
 
In this command, use method 1. There is 1 QW which is the 2nd layer. The <math> \beta </math> and <math> R_{th} </math> of the 2nd layer is 1.0e-4 and 5.0e27 <math> (1/cm^{3}s) </math>
 
In this command, use method 1. There is 1 QW which is the 2nd layer. The <math> \beta </math> and <math> R_{th} </math> of the 2nd layer is 1.0e-4 and 5.0e27 <math> (1/cm^{3}s) </math>
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<br>'''<big><big>The $activateStimEL setting in GUI interface is here</big></big>''' <br>
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1. After setting up the general structure, press '''Additional Function'''.<br>
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2. Check the box for '''Stimulate emission setting''' and fill in these fields as needed!<br>
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[[檔案:2D_activateStimEL_fig1.jpg|1200px]]

於 2024年11月20日 (三) 20:07 的最新修訂

$activateStimEL is a command used to enable the calculation of stimulate Emission.

The stimulate emission coefficient is calculated by:

B_{stim} = B_{0} \times \beta \times \frac{R_{rad}}{R_{th}-R_{rad}}
R_{stim} = B_{stim} \times n \times p 
 B_{0}:  is the radiative recombination coefficient
 R_{th}: is the threshold recombination rate
 R_{rad}:  is the spontaneous radiative recombination rates decided by   B_{0}\times n \times p 
 \beta:  is the fitting coefficient. 

The way to activate the command is as following

$activateStimEL
Method QW_number 1st_QW_layerNum 2nd_QW_layerNum 3rd_QW_layerNum ...
 \beta_{1}~~  R_{th,1}  ~~ P3_1~~ P4_1
 \beta_{2}~~  R_{th,2}  ~~ P3_2~~ P4_2
 \beta_{3}~~  R_{th,3}  ~~ P3_3~~ P4_3
 \beta_{4}~~  R_{th,4}  ~~ P3_4~~ P4_4
 \beta_{5}~~  R_{th,5}  ~~ P3_5~~ P4_5
.....
..... total N layers (regions)
 \beta_{N}~~  R_{th,N}  ~~ P3_N~~ P4_N 
Method: 1 -> Given  \beta and R_{th}  of each layer. If this is layer is not QW, set  \beta=0.0~~,and~~R_{th}=0.0 
Method: 2 -> defined for future expansion
P3, P4 : Not used. It might be used when Method 2 is activate in the future


For example:

$activateStimEL
1 1 2 
0.000 5.0e27 0.00 0.00
1.000e-4 5.0e27 0.00 0.00
0.000 5.0e27 0.00 0.00
0.000 5.0e27 0.00 0.00

In this command, use method 1. There is 1 QW which is the 2nd layer. The  \beta and  R_{th} of the 2nd layer is 1.0e-4 and 5.0e27  (1/cm^{3}s)


The $activateStimEL setting in GUI interface is here
1. After setting up the general structure, press Additional Function.
2. Check the box for Stimulate emission setting and fill in these fields as needed!
2D activateStimEL fig1.jpg